The PWM control circuit is provided. The PWM control circuit includes: a PWM control signal generator that generates a PWM period signal defining a period of a PWM signal and a PWM resolution signal specifying a resolution in one period of the PWM period signal; and a PWM unit that generates the PWM signal based on the PWM period signal and the PWM resolution signal, wherein the PWM control signal generator changes a frequency of the PWM resolution signal while keeping a frequency of the PWM period signal unchanged.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A pulse width modulation control circuit, comprising: a pulse width modulation control signal generator that generates a pulse width modulation period signal defining a period of a pulse width modulation signal and a pulse width modulation resolution signal specifying a resolution in one period of the pulse width modulation period signal; and a pulse width modulation unit that generates the pulse width modulation signal based on the pulse width modulation period signal and the pulse width modulation resolution signal, wherein the pulse width modulation control signal generator changes a frequency of the pulse width modulation resolution signal while keeping a frequency of the pulse width modulation period signal unchanged , and the pulse width modulation unit includes a counter that repeatedly decreases a count value in sync with the pulse width modulation resolution signal for each cycle of the pulse width modulation period signal, and that outputs a signal that indicates a H level when the count value is eater than 0 and outputs a signal that indicates a L level when the count value is 0.
2. The pulse width modulation control circuit according to claim 1 , wherein the pulse width modulation control signal generator has a PLL circuit including a phase comparator, a loop filter, a voltage control oscillator, and a frequency divider, the pulse width modulation period signal is a return signal output from the frequency divider of the PLL circuit and input into the phase comparator of the PLL circuit, and the pulse width modulation resolution signal is output from the voltage control oscillator of the PLL circuit.
3. The pulse width modulation control circuit according to claim 2 , further comprising: a second frequency divider that divides a frequency of a fixed clock signal and outputs a frequency-divided clock signal as a reference signal input into the phase comparator of the PLL circuit.
4. The pulse width modulation control circuit according to claim 1 , wherein the pulse width modulation control signal generator has a PLL circuit including a phase comparator, a loop filter, a voltage control oscillator, and a frequency divider, the pulse width modulation period signal is a reference signal input into the phase comparator of the PLL circuit, and the pulse width modulation resolution signal is output from the voltage control oscillator of the PLL circuit.
5. The pulse width modulation control circuit according to claim 4 , further comprising: a second frequency divider that divides a frequency of a fixed clock signal and outputs a frequency-divided clock signal as the pulse width modulation period signal.
6. A motor, comprising the pulse width modulation control circuit according to claim 1 .
7. A device, comprising: the motor according to claim 6 ; and a driven member arranged to be driven by the motor.
8. The device according to claim 7 , wherein the device is a projector.
9. The device according to claim 7 , wherein the device is a portable device.
10. The device according to claim 7 , wherein the device is a moving body.
11. The device according to claim 7 , wherein the device is a robot.
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February 21, 2012
January 21, 2014
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